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The Earth's oceans likely evolved. From the condensation of water vapor in the hyrogen-oxygen rich atmWith the accumulation of rainfallFrom the condensation of water vapor from volcanic eruptionsAs the Earth cooled. The Earth's oceans likely evolved. From the condensation of water vapor in the hy
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1. Review for Chapter 37 & 38 Mrs. Senger
2. The Earths oceans likely evolved From the condensation of water vapor in the hyrogen-oxygen rich atm
With the accumulation of rainfall
From the condensation of water vapor from volcanic eruptions
As the Earth cooled
3. The Earths oceans likely evolved From the condensation of water vapor in the hyrogen-oxygen rich atm
With the accumulation of rainfall
From the condensation of water vapor from volcanic eruptions
As the Earth cooled
4. The earths earliest atm was lacking in Carbon dioxide
Photosynthesis
Free oxygen
Hydrogen
5. The earths earliest atm was lacking in Carbon dioxide
Photosynthesis
Free oxygen
Hydrogen
6. The process of photosynthesis is important because photosynthesis Allows plants to grow to larger size
Is an energy source that drives the metabolic process
Converts carbon dioxide and water to hydrogen & free oxygen
All of these
7. The process of photosynthesis is important because photosynthesis Allows plants to grow to larger size
Is an energy source that drives the metabolic process
Converts carbon dioxide and water to hydrogen & free oxygen
All of these
8. The atm is divided into several layers. The troposphere is the The atmosphere's 3rd layer and the thickest layer
Lowest layer and the thickest layer, where earths weather occurs
Lowest layer and the thinnest, where the earths weather occurs
None of these
9. The atm is divided into several layers. The troposphere is the The atmosphere's 3rd layer and the thickest layer
Lowest layer and the thickest layer, where earths weather occurs
Lowest layer and the thinnest, where the earths weather occurs
None of these
10. The ozone layer is a region within the Ionosphere
Troposphere
Mesosphere
Stratosphere
11. The ozone layer is a region within the Ionosphere
Troposphere
Mesosphere
Stratosphere
12. The layers of the earths atm, from top to bottom, are the Troposphere, stratosphere, ozone layer, mesosphere, thermosphere, ionosphere and exosphere
Exosphere, thermosphere, mesosphere, stratosphere, and troposphere
Exosphere, ionosphere, thermosphere, mesosphere, ozonosphere, stratosphere and troposphere
Troposphere, stratosphere, mesosphere, thermosphere and exosphere
13. The layers of the earths atm, from top to bottom, are the Troposphere, stratosphere, ozone layer, mesosphere, thermosphere, ionosphere and exosphere
Exosphere, thermosphere, mesosphere, stratosphere, and troposphere
Exosphere, ionosphere, thermosphere, mesosphere, ozonosphere, stratosphere and troposphere
Troposphere, stratosphere, mesosphere, thermosphere and exosphere
14. The temperature in the thermosphere reaches a whooping 2000 degrees C. This extreme temperature has very little significance because The thermosphere is very far from the Earths surface
There are not enough air molecules & atoms colliding with one another to generate heat energy
There is very little ozone in the air to absorb the solar radiation
Few atoms and air molecules in this region move slowly enough to absorb much solar radiation
15. The temperature in the thermosphere reaches a whooping 2000 degrees C. This extreme temperature has very little significance because The thermosphere is very far from the Earths surface
There are not enough air molecules & atoms colliding with one another to generate heat energy
There is very little ozone in the air to absorb the solar radiation
Few atoms and air molecules in this region move slowly enough to absorb much solar radiation
16. The ionosphere Is produced by the action of solar radiation and atmospheric atoms
Reflects solar ultraviolet & atmospheric atoms
Consist of ozone ions
Occurs at roughly the same altitude as high clouds
17. The ionosphere Is produced by the action of solar radiation and atmospheric atoms
Reflects solar ultraviolet & atmospheric atoms
Consist of ozone ions
Occurs at roughly the same altitude as high clouds
18. The tilt of the earths axis greatly affects the Change of the earths seasons
Intensity of sunlight that reaches the earths surface
Hours of daylight
All of these
19. The tilt of the earths axis greatly affects the Change of the earths seasons
Intensity of sunlight that reaches the earths surface
Hours of daylight
All of these
20. The angle of the suns rays striking the earths surface greatly affects the Earths seasons
Intensity of solar energy received at the earths surface
Equatorial and polar regions
All of these
21. The angle of the suns rays striking the earths surface greatly affects the Earths seasons
Intensity of solar energy received at the earths surface
Equatorial and polar regions
All of these
22. The lower atmosphere is directly warmed By the absorption of terrestrial radiation
From the weight of the atmosphere above
By the emission of terrestrial radiation
By incoming solar radiation
23. The lower atmosphere is directly warmed By the absorption of terrestrial radiation
From the weight of the atmosphere above
By the emission of terrestrial radiation
By incoming solar radiation
24. At the end of December, all the Southern Hemisphere is in Summer
Winter
Darkness
Light
25. At the end of December, all the Southern Hemisphere is in Summer
Winter
Darkness
Light
26. Almost all of the earths supply of energy come from The Sun
Carbon dioxide
The earths interior
The oceans
27. Almost all of the earths supply of energy come from The Sun
Carbon dioxide
The earths interior
The oceans
28. Air near the equator averages higher temperatures than air near the poles because The oceans near the equator are warmer than those near the poles
Polar air is cooled by ice and snow on the ground
Infrared radiation is absorbed more readily in equatorial air due to increased levels of carbon dioxide and water vapor
Sunlight falls in more vertical position at the equator than near the poles
29. Air near the equator averages higher temperatures than air near the poles because The oceans near the equator are warmer than those near the poles
Polar air is cooled by ice and snow on the ground
Infrared radiation is absorbed more readily in equatorial air due to increased levels of carbon dioxide and water vapor
Sunlight falls in more vertical position at the equator than near the poles
30. Wind is generated in response to Pressure differences
Temperature differences
The unequal heating of the earths surface
All of these
31. Wind is generated in response to Pressure differences
Temperature differences
The unequal heating of the earths surface
All of these
32. The Coriolis effect greatly affects the path of air circulation, and it is the result of The tilt of the earth
The earths rotation
Global winds
All of these
33. If a volume of air is warmed, it expands. After it expands the volume of air expands because it Cools
Warms
Neither cools or warms
Does both
34. If a volume of air is warmed, it expands. After it expands the volume of air expands because it Cools
Warms
Neither cools or warms
Does both
35. The wind blows in response to Pressure differences
The earths rotation
Temperature differences
Pressure and temperature differences
36. The wind blows in response to Pressure differences
The earths rotation
Temperature differences
Pressure and temperature differences
37. Fresh water leaves the ocean by Precipitation, evaporation and runoff
Condensation
Evaporation, sublimation and freezing
Evaporation and formation of ice
38. Fresh water leaves the ocean by Precipitation, evaporation and runoff
Condensation
Evaporation, sublimation and freezing
Evaporation and formation of ice
39. When precipitation at the ocean surface exceeds evaporation, the salinity of seawater Increases
Decreases
Stays the same
Not enough info
40. When precipitation at the ocean surface exceeds evaporation, the salinity of seawater Increases
Decreases
Stays the same
Not enough info
41. The two most abundant elements that make up the salinity of seawater are Sodium and potassium
Chlorine and sulfur
Chlorine and sodium
Calcium and sulfur
42. The two most abundant elements that make up the salinity of seawater are Sodium and potassium
Chlorine and sulfur
Chlorine and sodium
Calcium and sulfur
43. Most surface ocean currents are due to River flow into the oceans
Melting polar glaciers
Density differences in vertical profile of the oceans
Winds
44. Most surface ocean currents are due to River flow into the oceans
Melting polar glaciers
Density differences in vertical profile of the oceans
Winds
45. Because the Coriolis effect, a wind in the Northern Hemisphere is deflected Upward
Downward
Toward the right
Toward the left
46. Because the Coriolis effect, a wind in the Northern Hemisphere is deflected Upward
Downward
Toward the right
Toward the left
47. Air currents are sensitive to changes in pressure and temperature. In general, air moves from regions of Low pressure to regions of high pressure
High temperatures and low pressure to regions of low temperature and high pressure
Low temperature and high pressure to regions of high temperature and low pressure
High pressure to regions of low pressure
48. Air currents are sensitive to changes in pressure and temperature. In general, air moves from regions of Low pressure to regions of high pressure
High temperatures and low pressure to regions of low temperature and high pressure
Low temperature and high pressure to regions of high temperature and low pressure
High pressure to regions of low pressure
49. The ocean has many layers amongst itself. The layers form due to differences in Salinity
Temperature
Both
neither
50. The ocean has many layers amongst itself. The layers form due to differences in Salinity
Temperature
Both
neither
51. What is the driving force of energy in the planets hydrologic cycle? Solar energy
Wind
Precipitation of water over the oceans
The balance of precipitation and evaporation
52. What is the driving force of energy in the planets hydrologic cycle? Solar energy
Wind
Precipitation of water over the oceans
The balance of precipitation and evaporation
53. The Coriolis effect greatly affects the path of circulation, and is the result of what? The Earths rotation
The tilt of the earth
Global winds
Wind changes
54. The Coriolis effect greatly affects the path of circulation, and is the result of what? The Earths rotation
The tilt of the earth
Global winds
Wind changes
55. The changing of a substance from a liquid into a vapor or gas is called Dew point
Evaporation
Condensation
Saturation point
56. The changing of a substance from a liquid into a vapor or gas is called Dew point
Evaporation
Condensation
Saturation point
57. The changing of a vapor into a liquid is called Saturation point
Dew point
Evaporation
Condensation
58. The changing of a vapor into a liquid is called Saturation point
Dew point
Evaporation
Condensation
59. The amount of water vapor the air can hold depends on the air temperature. At higher temperatures the air Is saturated
Holds water at dew point
Holds less water
Can hold more water
60. The amount of water vapor the air can hold depends on the air temperature. At higher temperatures the air Is saturated
Holds water at dew point
Holds less water
Can hold more water
61. The temperature to which air must be cooled for saturation to occur is called Relative humidity
Dew point
Precipitation
Condensation point
62. The temperature to which air must be cooled for saturation to occur is called Relative humidity
Dew point
Precipitation
Condensation point
63. The limit at which the air contains as much moisture as it can hold for a given temperature is called Dew point
Saturation
Evaporation point
Sublimation point
64. The limit at which the air contains as much moisture as it can hold for a given temperature is called Dew point
Saturation
Evaporation point
Sublimation point
65. We feel uncomfortably warm on a muggy day because water molecules are Jostling about
Preventing evaporation from our body
Condensing on our skin
Evaporating from out body
66. We feel uncomfortably warm on a muggy day because water molecules are Jostling about
Preventing evaporation from our body
Condensing on our skin
Evaporating from out body
67. Evaporation of rain drops in the atmosphere Is greatest above the polar ice caps
Does not happen; rain always reaches the earth
Cools the air
Warms the air
68. Evaporation of rain drops in the atmosphere Is greatest above the polar ice caps
Does not happen; rain always reaches the earth
Cools the air
Warms the air
69. As air temperature decreases, relative humidity Stays the same
Drops
Decreases
Increases
70. As air temperature decreases, relative humidity Stays the same
Drops
Decreases
Increases
71. As air rises, it Compresses and cools
Compresses and warms
Expands and cools
Expands and warms
72. As air rises, it Compresses and cools
Compresses and warms
Expands and cools
Expands and warms
73. We are warmed by condensation because water molecules in the air that strike our bodies Gain kinetic energy as they change state
Transfer kinetic energy to us
Form an insulating layer on our bodies
None of these
74. We are warmed by condensation because water molecules in the air that strike our bodies Gain kinetic energy as they change state
Transfer kinetic energy to us
Form an insulating layer on our bodies
None of these
75. Warm air rises and cools as it expands. Warm air will continue to rise as long as it is Snowing
Warmer and more dense than the air above
Warmer and less dense than the surrounding air
Denser than the surrounding air
76. Warm air rises and cools as it expands. Warm air will continue to rise as long as it is Snowing
Warmer and more dense than the air above
Warmer and less dense than the surrounding air
Denser than the surrounding air
77. An air parcel expands and cools, or compresses and warms, with no interchange of heat with its surroundings, the situation is called An adiabatic process
Temperature equilibrium
Lapse rate
Stable equilibrium
78. An air parcel expands and cools, or compresses and warms, with no interchange of heat with its surroundings, the situation is called An adiabatic process
Temperature equilibrium
Lapse rate
Stable equilibrium
79. When a volume of air is compressed, its temperature Decreases
Increases
Both
None of these
80. When a volume of air is compressed, its temperature Decreases
Increases
Both
None of these
81. A drop in pressure is an indication of Sunny skies and clear weather
Adiabetic warming
Cloudy weather
None of these
82. A drop in pressure is an indication of Sunny skies and clear weather
Adiabetic warming
Cloudy weather
None of these
83. A rise in pressure indicates Adiabatic warming
Cloudy weather
Sunny skies and clear weather
None of these
84. A rise in pressure indicates Adiabatic warming
Cloudy weather
Sunny skies and clear weather
None of these
85. Clouds occur when moist air is cooled by Compression when it rises
Expansion when it rises
Expansion when it falls
Compression when it falls
86. Clouds occur when moist air is cooled by Compression when it rises
Expansion when it rises
Expansion when it falls
Compression when it falls
87. Warm humid air is characteristic of a Continental polar air mass
Maritime polar air mass
Maritime tropical air mass
Continental tropical air mass
88. Warm humid air is characteristic of a Continental polar air mass
Maritime polar air mass
Maritime tropical air mass
Continental tropical air mass
89. When an air mass is pushed upward over an obstacle, it undergoes Orographical lifting
Convectional lifting
Adiabatic lifting
Frontal lifting
90. When an air mass is pushed upward over an obstacle, it undergoes Orographical lifting
Convectional lifting
Adiabatic lifting
Frontal lifting
91. An air mass with circulatory motion is called Frontal
Adiabatic
Orographic
Convectional
92. An air mass with circulatory motion is called Frontal
Adiabatic
Orographic
Convectional
93. Atmspheric lifting resulting from the convergence of 2 different air masses is called Orographic lifting
Convectional lifting
Frontal lifting
Adiabatic lifting
94. Atmspheric lifting resulting from the convergence of 2 different air masses is called Orographic lifting
Convectional lifting
Frontal lifting
Adiabatic lifting
95. When a cold air mass moves into a region occupied by a warm air mass, the contact zone is called A warm front
A cold front
An occluded front
A stationary front
96. When a cold air mass moves into a region occupied by a warm air mass, the contact zone is called A warm front
A cold front
An occluded front
A stationary front
97. When a warm air mass moves into a region occupied by a cold air mass, the contact zone is called A warm front
A cold front
An occluded front
A stationary front
98. When a warm air mass moves into a region occupied by a cold air mass, the contact zone is called A warm front
A cold front
An occluded front
A stationary front
99. Lower temperatures can be expected Ahead of an advancing cold front
Behind an advancing cold front
Behind a stationary warm front
Behind an advancing warm front
100. Lower temperatures can be expected Ahead of an advancing cold front
Behind an advancing cold front
Behind a stationary warm front
Behind an advancing warm front
101. Towering cumulonimbus clouds are a common feature in regions where moist unstable air is heated from below. Such clouds are produced by Frontal lifting
Orographic lifting
Convectional lifting
None of these
102. Towering cumulonimbus clouds are a common feature in regions where moist unstable air is heated from below. Such clouds are produced by Frontal lifting
Orographic lifting
Convectional lifting
None of these
103. If a cool dry day was followed by a warm humid day, you might expect the air masses to have been Continental polar and maritime tropical
Continental tropical and continental polar
Maritime tropical and continental polar
Maritime polar and maritime tropical
104. If a cool dry day was followed by a warm humid day, you might expect the air masses to have been Continental polar and maritime tropical
Continental tropical and continental polar
Maritime tropical and continental polar
Maritime polar and maritime tropical
105. Daily afternoon thunderstorms along the Gulf coast are most likely caused by a Maritime tropical air mass
Maritime polar air mass
Continental tropical air mass
Continental polar air mass
106. Daily afternoon thunderstorms along the Gulf coast are most likely caused by a Maritime tropical air mass
Maritime polar air mass
Continental tropical air mass
Continental polar air mass
107. Drought conditions and high temperatures over the Great Plains are most likely caused by a Maritime tropical air mass
Maritime polar air mass
Continental tropical air mass
Continental polar air mass
108. Drought conditions and high temperatures over the Great Plains are most likely caused by a Maritime tropical air mass
Maritime polar air mass
Continental tropical air mass
Continental polar air mass
109. Cold damp weather along the eastern coast of the United States is most likely caused by a Maritime tropical air mass
Maritime polar air mass
Continental tropical air mass
Continental polar air mass
110. Cold damp weather along the eastern coast of the United States is most likely caused by a Maritime tropical air mass
Maritime polar air mass
Continental tropical air mass
Continental polar air mass
111. When a funnel cloud touches the ground, it becomes a Cyclone
Tornado
Hurricane
Thunderstorm
112. When a funnel cloud touches the ground, it becomes a Cyclone
Tornado
Hurricane
Thunderstorm
113. Hurricanes are generated In tropical areas
As moist thermal winds converge in tropical storms
From tropical storms with high levels of moisture and thermal energy
By all of these
114. Hurricanes are generated In tropical areas
As moist thermal winds converge in tropical storms
From tropical storms with high levels of moisture and thermal energy
By all of these
115. Lightning occurs as water droplets become electrically charged. Energy that is positively charged is found Throughout the cloud
Surrounding the cloud
At the top of the cloud
At the base of the cloud
116. Lightning occurs as water droplets become electrically charged. Energy that is positively charged is found Throughout the cloud
Surrounding the cloud
At the top of the cloud
At the base of the cloud
117. The fundamental source of energy released by a tropical hurricane come from The Sun
Warm moist air
The convergence of maritime polar and maritime tropical air masses
The trade winds
118. The fundamental source of energy released by a tropical hurricane come from The Sun
Warm moist air
The convergence of maritime polar and maritime tropical air masses
The trade winds
119. The atmospheric condition at a particular location moment in time is called Climate
Weather
Average temperature
Average precipitation level
120. The atmospheric condition at a particular location moment in time is called Climate
Weather
Average temperature
Average precipitation level
121. In general, warm days are associated with Summer storms
Low surface pressure
High surface pressure
Negative change in pressure gradient
122. In general, warm days are associated with Summer storms
Low surface pressure
High surface pressure
Negative change in pressure gradient
123. All of the Earths weather occurs in the Lower levels of the atmosphere
Troposphere
Troposphere and stratosphere
Tropopause
124. All of the Earths weather occurs in the Lower levels of the atmosphere
Troposphere
Troposphere and stratosphere
Tropopause
125. Which of the following has the greatest impact on generating waves in the ocean The movement of sea life causes disturbances in the water
The density differences of the water due to the oceans salinity
Magma at ocean ridges causing the warm water to rise and cool water to sink
Friction with the wind at the surface of the ocean
126. Which of the following has the greatest impact on generating waves in the ocean The movement of sea life causes disturbances in the water
The density differences of the water due to the oceans salinity
Magma at ocean ridges causing the warm water to rise and cool water to sink
Friction with the wind at the surface of the ocean